ocaml/bytecomp/bytelink.ml

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(***********************************************************************)
(* *)
(* Caml Special Light *)
(* *)
(* Xavier Leroy, projet Cristal, INRIA Rocquencourt *)
(* *)
(* Copyright 1995 Institut National de Recherche en Informatique et *)
(* Automatique. Distributed only by permission. *)
(* *)
(***********************************************************************)
(* $Id$ *)
(* Link a set of .cmo files and produce a bytecode executable. *)
open Sys
open Misc
open Config
open Emitcode
type error =
File_not_found of string
| Not_an_object_file of string
| Symbol_error of string * Symtable.error
| Inconsistent_import of string * string * string
| Custom_runtime
exception Error of error
type link_action =
Link_object of string * compilation_unit
(* Name of .cmo file and descriptor of the unit *)
| Link_archive of string * compilation_unit list
(* Name of .cma file and descriptors of the units to be linked. *)
(* First pass: determine which units are needed *)
module IdentSet =
Set.Make(struct
type t = Ident.t
let compare = compare
end)
let missing_globals = ref IdentSet.empty
let is_required (rel, pos) =
match rel with
Reloc_setglobal id ->
IdentSet.mem id !missing_globals
| _ -> false
let add_required (rel, pos) =
match rel with
Reloc_getglobal id ->
missing_globals := IdentSet.add id !missing_globals
| _ -> ()
let remove_required (rel, pos) =
match rel with
Reloc_setglobal id ->
missing_globals := IdentSet.remove id !missing_globals
| _ -> ()
let scan_file obj_name tolink =
let file_name =
try
find_in_path !load_path obj_name
with Not_found ->
raise(Error(File_not_found obj_name)) in
let ic = open_in_bin file_name in
try
let buffer = String.create (String.length cmo_magic_number) in
really_input ic buffer 0 (String.length cmo_magic_number);
if buffer = cmo_magic_number then begin
(* This is a .cmo file. It must be linked in any case.
Read the relocation information to see which modules it
requires. *)
let compunit_pos = input_binary_int ic in (* Go to descriptor *)
seek_in ic compunit_pos;
let compunit = (input_value ic : compilation_unit) in
close_in ic;
List.iter add_required compunit.cu_reloc;
Link_object(file_name, compunit) :: tolink
end
else if buffer = cma_magic_number then begin
(* This is an archive file. Each unit contained in it will be linked
in only if needed. *)
let pos_toc = input_binary_int ic in (* Go to table of contents *)
seek_in ic pos_toc;
let toc = (input_value ic : compilation_unit list) in
close_in ic;
let required =
List.fold_right
(fun compunit reqd ->
if List.exists is_required compunit.cu_reloc
or !Clflags.link_everything
then begin
List.iter remove_required compunit.cu_reloc;
List.iter add_required compunit.cu_reloc;
compunit :: reqd
end else
reqd)
toc [] in
Link_archive(file_name, required) :: tolink
end
else raise(Error(Not_an_object_file file_name))
with x ->
close_in ic; raise x
(* Second pass: link in the required units *)
(* Consistency check between interfaces *)
let crc_interfaces = (Hashtbl.new 17 : (string, string * Digest.t) Hashtbl.t)
let check_consistency file_name cu =
List.iter
(fun (name, crc) ->
try
let (auth_name, auth_crc) = Hashtbl.find crc_interfaces name in
if crc <> auth_crc then
raise(Error(Inconsistent_import(name, file_name, auth_name)))
with Not_found ->
(* Can only happen for unit for which only a .cmi file was used,
but no .cmo is provided *)
Hashtbl.add crc_interfaces name (file_name, crc))
cu.cu_imports;
Hashtbl.add crc_interfaces cu.cu_name (file_name, cu.cu_interface)
(* Link in a compilation unit *)
let link_compunit outchan inchan file_name compunit =
check_consistency file_name compunit;
seek_in inchan compunit.cu_pos;
let code_block = String.create compunit.cu_codesize in
really_input inchan code_block 0 compunit.cu_codesize;
Symtable.patch_object code_block compunit.cu_reloc;
output outchan code_block 0 compunit.cu_codesize
(* Link in a .cmo file *)
let link_object outchan file_name compunit =
let inchan = open_in_bin file_name in
try
link_compunit outchan inchan file_name compunit;
close_in inchan
with
Symtable.Error msg ->
close_in inchan; raise(Error(Symbol_error(file_name, msg)))
| x ->
close_in inchan; raise x
(* Link in a .cma file *)
let link_archive outchan file_name units_required =
let inchan = open_in_bin file_name in
try
List.iter (link_compunit outchan inchan file_name) units_required;
close_in inchan
with
Symtable.Error msg ->
close_in inchan; raise(Error(Symbol_error(file_name, msg)))
| x ->
close_in inchan; raise x
(* Link in a .cmo or .cma file *)
let link_file outchan = function
Link_object(file_name, unit) -> link_object outchan file_name unit
| Link_archive(file_name, units) -> link_archive outchan file_name units
(* Create a bytecode executable file *)
let link_bytecode objfiles exec_name copy_header =
let objfiles = "stdlib.cma" :: (objfiles @ ["std_exit.cmo"]) in
let tolink =
List.fold_right scan_file objfiles [] in
let outchan =
open_out_gen [Open_wronly; Open_trunc; Open_creat; Open_binary] 0o777
exec_name in
try
(* Copy the header *)
if copy_header then begin
try
let inchan = open_in_bin (find_in_path !load_path "cslheader") in
copy_file inchan outchan;
close_in inchan
with Not_found | Sys_error _ -> ()
end;
(* The bytecode *)
let pos1 = pos_out outchan in
Symtable.init();
Hashtbl.clear crc_interfaces;
List.iter (link_file outchan) tolink;
(* The final STOP instruction *)
output_byte outchan Opcodes.opSTOP;
output_byte outchan 0; output_byte outchan 0; output_byte outchan 0;
(* The table of global data *)
let pos2 = pos_out outchan in
output_value outchan (Symtable.initial_global_table());
(* The List.map of global identifiers *)
let pos3 = pos_out outchan in
Symtable.output_global_map outchan;
(* The trailer *)
let pos4 = pos_out outchan in
output_binary_int outchan (pos2 - pos1);
output_binary_int outchan (pos3 - pos2);
output_binary_int outchan (pos4 - pos3);
output_binary_int outchan 0;
output_string outchan exec_magic_number;
close_out outchan
with x ->
close_out outchan;
remove_file exec_name;
raise x
(* Main entry point (build a custom runtime if needed) *)
let link objfiles =
if not !Clflags.custom_runtime then
link_bytecode objfiles !Clflags.exec_name true
else begin
let bytecode_name = temp_file "camlcode" "" in
let prim_name = temp_file "camlprim" ".c" in
try
link_bytecode objfiles bytecode_name false;
Symtable.output_primitives prim_name;
if Sys.command
(Printf.sprintf
"%s -I%s -o %s %s %s -L%s %s -lcamlrun %s"
Config.bytecomp_c_compiler
Config.standard_library
!Clflags.exec_name
(String.concat " " (List.rev !Clflags.ccopts))
prim_name
Config.standard_library
(String.concat " " (List.rev !Clflags.ccobjs))
Config.c_libraries)
<> 0
then raise(Error Custom_runtime);
let oc =
open_out_gen [Open_wronly; Open_append; Open_binary] 0
!Clflags.exec_name in
let ic = open_in_bin bytecode_name in
copy_file ic oc;
close_in ic;
close_out oc;
remove_file bytecode_name;
remove_file prim_name
with x ->
remove_file bytecode_name;
remove_file prim_name;
raise x
end
(* Error report *)
open Format
let report_error = function
File_not_found name ->
print_string "Cannot find file "; print_string name
| Not_an_object_file name ->
print_string "The file "; print_string name;
print_string " is not a bytecode object file"
| Symbol_error(name, err) ->
print_string "Error while linking "; print_string name; print_string ":";
print_space();
Symtable.report_error err
| Inconsistent_import(intf, file1, file2) ->
open_hvbox 0;
print_string "Files "; print_string file1; print_string " and ";
print_string file2; print_space();
print_string "make inconsistent assumptions over interface ";
print_string intf;
close_box()
| Custom_runtime ->
print_string "Error while building custom runtime system"